ES2438620A1 - Group of elements and method for lifting the nacelle and/or the rotor of a wind generator - Google Patents

Abstract

The invention relates to a group of elements and to a method for lifting the rotor and/or the nacelle up the tower of a wind generator, containing a supporting element (2) that is arranged on the upper part of the tower (1), at least one winch-type lifting device (11) arranged on the ground with cables (12) that ascend up to the supporting element (2) and are connected to a chain hoist pulley system (9), lowering the cable(s) (12) until attachment of same to a displacement element (13) that moves vertically on the tower (1) in order to raise the nacelle (7) and the blades of the rotor (8), by means of the pull of the winches, up to the supporting element (2), where a carriage (10) is moved on a rail up to the vertical of the axis of the tower in order to lower the nacelle (7) and the rotor (8) to the site thereof, by means of at least one chain hoist.

Description

GROUP OF ELEMENTS AND PROCEDURE FOR THE

ELEVATION OF THE GONDOLA AND / OR THE ROTOR OF THE AIRLINER

Field of the Invention

This invention relates to a set of elements that serve to raise to the top of the a wind turbine tower the rotor blades and / or the gondola, also called nacelle, until the gondola with the blades in their operative position in the top end of the tower. The invention also refers the phases of the lifting procedure. He same system can be used to descend from above of the tower said wind turbine components for its replacement, repair or maintenance.

This invention may also be applicable. for lifting / lowering the components that must be placed on top of buildings similar, such as any type of pylon or mast.

Background of the invention

In recent years wind energy has experienced an important development that has placed it as one of the most implanted renewable energies, by be an effective way to produce electricity and completely avoid the emission of carbon dioxide to the atmosphere. The international concern for possible environmental, economic and social consequences of climate change has caused them to rethink the ways in the use of energy, finding in the renewable energy or green energy a solution to

deterioration

environmental caused by the energies

conventional.

A

wind turbine wind is a machine that

Transforms wind energy into electrical energy. Be It consists of a tower-shaped structure that supports a certain height the rotor that is coupled to a gondola, components that produce electricity from wind turbine The rotor is composed of the blades arranged in propeller, generally there are three, which transmit the power of the wind, being part of the rotor the hub with which the rotor is attached to the gondola

or nacelle which is the framework inside which find the electrical and mechanical elements needed to convert rotational mechanical energy of the rotor in electrical energy. The gondola joins the tower by a toothed crown that allows orientation from the rotor to the wind.

At first the towers were metallic, needing large capacity cranes for lifting or lowering of the gondola and the rotor to its position in the tower, cranes that are mobile and move to the location of the wind turbine for these jobs.

The dimensions of the wind turbine, with designs increasingly powerful, has resulted in large towers height, supporting a rotor with blades that can reach each of them a length of 50 meters, with a weight of the rotor assembly that oscillates around of 50 tons. The gondola can reach in the future weighing between 200 to 400 tons.

The increase in powers and sizes of wind turbines has motivated the emergence of new constructive technologies, such as the introduction of concrete towers executed “in situ” that are used

as a support element for lifting loads of the wind turbine by providing greater capacity for resistance to bending and torsion than Traditional metal towers. This allows to obtain a significant cost reduction and simplification of process.

Description of the invention

The invention proposes a method of elevation with the contest of elements that allow both the elevation and the positioning of the turbine of the wind turbine, made up of the rotor and the gondola, in its location on top of the tower.

These lifting and positioning elements They are easy to transport and assemble, with simple disassembly once the installation of the gondola and rotor in the tower; can be used both for machines installed on land, "onshore", as at sea, "offshore".

The procedure allows you to upload the gondola or together with the rotor blades for place them in their location on top of the tower, using the tower of the wind turbine as ascension element. This invention this designed, mainly, for towers built “in if you".

For this purpose, the invention uses one or more load lifting devices that are secured at the base of the tower, anchored to the foundation, devices with one or more cables each, cables that ascend from their firing position to a support structure that is located at the top of

the tower, to lower the cable / side by side opposite the tower to the ground where the gondola and rotor blades before lifting. The o the ends of the cables will be secured to a advantageous configuration offset element to slide vertically through the tower, without horizontal displacements, when put in Operation lifting devices.

The support structure located in the part top of the tower will be where the cables run coming out of vertical lifting devices, this support structure can also serve to move the load horizontally using the contest of a car that moves along a lane, a once said load is located at the top. The gondola will be placed in its operational position, anchored in the crown gear that is at the end of the tower, by operating mobile pulleys present in the support structure and linked to car. Said support structure is composed of easily transportable and mountable materials.

To complement the description that is being performing and in order to help a better understanding of the characteristics of the invention, the present descriptive report of plans, showing the mode

from

realization preferential, where, with character

illustrative

Y no limitative, be he has represented the

next:

Figure 1.- View of the wind turbine tower With the support element.

Figure 2.- Shows the elevation by the tower of The gondola

Figure 3.- Shows the placement of the rotor in the Gondola at a certain height.

Figure 4.- Plan view of the support element, The gondola and the rotor.

Figure 5.- Shows the lifting phase when The load reaches the top of the tower.

Figure 6.-Detail of the gondola in its Horizontal displacement; shown without rotor for appreciate the car that can be moved along the lane.

Figure 7.- View of the gondola with rotor located on the vertical axis of the tower, before being placed in its location.

Figure 8.- Shows the installed wind turbine, the support structure having been removed.

Preferred Embodiment of the Invention

According to the figures, as initial work in the lifting procedure it is necessary to install in the tower (1), in its upper part, a structure support (2) presenting a vertical part (3) that is secure through anchors (4) to the tower (1), perpendicular to another horizontal part (5) that is arranged parallel to the ground. The horizontal part (5) has a section above the end of the tower (1), with dimensions that are at least equivalent to the width of the upper end of the tower plus the width of the gondola (7). This design is advantageous for enable the lifting of the gondola (7) and / or the rotor (8), and allow horizontal movement once the load has reached the top of the tower (1).

The support structure (2) is formed by a network of beams that are two beams in parallel

forming the horizontal part (5), linked to another beam of greater width that forms the vertical part (3) anchored to the tower (1).

The support structure contains a carriage (10) horizontally movable by the horizontal part (5) by a rail; in this embodiment it moves along the section (6) of the horizontal part (5) that is located above the end of the tower (1).

The support structure (2) contains a system of pulleys (9), with at least one pulley that is linked to the carriage (10), being in this embodiment preferably a hoist.

The anchor (4) by which this is installed support structure (2) will be arranged next to the top of the tower and is made by bolts that are screwed into a series female threads by way of waiting embedded in the structure of the tower (1), concrete or material similar, distributed around the perimeter of the tower (1) conveniently for its function.

The invention also contains one or more lifting devices (11) that are winches anchored to the foundation. In the initial position, the Gondola (7) of the wind turbine will be positioned so diametrically opposed to lifting devices

(eleven)

 with respect to the tower (1). Preferably, there will be two winches with a cable (12) each of them that ascend from its position to the support structure

(2)

 until each of the cables (12) reaches the system of pulleys (9), hoist, dividing at this point each of the wires in two wires, so that four cables descend, two for each hoist, to ensure the displacement element (13) that consists on a platform that contains wheels or bearings that

allow you to scroll vertically across the surface of the tower (1).

In another embodiment, in order to achieve safety and stability conditions, the tower (1) may contain a formed guidance system by one or more lanes attached to the surface of the tower, which facilitate the lifting of the gondola (7) and / or the rotor (8) and the movement of the element of displacement (13).

The gondola (7) will be placed before the phase of ascension in the displacement element (13). He securing the gondola (7) to said element of displacement (13) will be done by means conventional. Once the previous one has been made work begins the ascension phase with the operation of lifting devices (11), winches, which shoot constantly, no accelerations that would impair ascension.

At a certain height, such that it allows placement, the lift will stop to install the rotor (8) in the gondola (7). This work will be done with the contest of self-propelled mobile cranes, continuing later with the elevation until the end of the vertical path, to place the gondola

(7) and / or the rotor (8) at a height above the end top of the tower (1).

At this time the carriage (10) that allows it to move in the direction horizontal the load to stand in the vertical coinciding with the axis of the tower, exercising up to this moment the pull force of the car the lifting devices (11), winches. One time is in that position it is lowered by

pulley system operation (9) to fit the gondola (7) at the top end of the tower, in the wind turbine crown. As stated previously, you can first ascend the gondola and

5 then the rotor or perform the ascension of both loads jointly.

After the wind turbine is set, with the gondola and the rotor at the top of the tower, it proceeds to disassemble the support structure (2),

10 being embedded in the upper area of the tower elements that make up the anchor (4) if it were necessary for the repair work of the wind turbine It should be understood that the invention has been

15 described according to the preferred embodiment thereof, by which may be subject to modifications provided and when said alterations do not vary substantially characteristics of the invention that are claimed by continuation.

twenty

Claims (18)

1.- Group of elements for the elevation of the Gondola and / or wind turbine rotor and installation in its location at the top end of the tower (1), characterized in that it comprises: .- a support structure (2) anchored in the part top of the tower (1). .- one or more lifting devices (11) of charges with at least one cable (12). .- a displacement element (13) that is move vertically in the tower (1). 2.- Group of elements for lifting, according to claim 1, characterized in that the structure support (2) has a horizontal part (5) that It has parallel to the ground and a vertical part (3), perpendicular to the horizontal, which is secured by anchors (4) to the tower (1). 3.- Group of elements for lifting, according to claim 1, characterized in that the structure support (2) are two beams in parallel forming the part horizontal (5), linked to another beam of greater width that forms the vertical part (3) and that is anchored to the tower (1). 4.- Group of elements for lifting, according to any of the preceding claims, characterized in that the horizontal part (5) of the support structure (2) contains a section (6) that is found above the end of the tower (1) and that presents dimensions this section (6) equivalent to the width of the upper end of the tower (1) plus the gondola width (7). 5.- Group of elements for lifting, according to claim 1, characterized in that the structure support (2) contains a carriage (10) that moves horizontally down a lane on the horizontal side (5). 6.- Group of elements for lifting, according to claims 4 and 5, characterized in that the carriage (10) moves along the section (6) of the part horizontal (5) located above the end of the tower (one). 7.- Group of elements for lifting, according to claim 1, characterized in that the structure support (2) contains a pulley system (9) with at Less a pulley. 8.- Group of elements for lifting, according to claims 6 and 7, characterized in that the pulley system (9) is linked to the car (10). 9.- Group of elements for lifting, according to claims 7 and 8, characterized in that the Pulley system (9) consists of at least one hoist. 10.- Group of elements for lifting, according to any of the preceding claim, characterized because each of the cables (12) is divided into two in the support structure (2) after passing each of them by a hoist (9). 11.- Group of elements for lifting, according to claim 1, characterized in that the cables (12) ascend from the lifting device (11) of loads to the support structure (2) to ensure the displacement element (13). 12.- Group of elements for lifting, according to claim 1, characterized in that the device Lifting (11) of loads is a winch anchored in the base of the tower (1). 13.- Group of elements for lifting, according to claim 2, characterized in that the anchors

(4)

 through which the support structure is installed

(2)

 they are arranged next to the top of the tower (1) and are bolts that are screwed to one or more female threads that they are embedded in the tower (1).

14.- Group of elements for lifting, according to claim 1, characterized in that the element of displacement (13) consists of a platform that Contains wheels or bearings that allow your movement on the surface of the tower (1). 15.- Group of elements for lifting, according to claim 1, characterized in that the element of displacement (13) is configured by a system of guided formed by one or more lanes attached to the tower surface (1). 16.-Procedure for lifting the Gondola and / or wind turbine rotor and installation in its location at the top end of the tower (1), characterized in that it comprises the following phases: .- Installation on top of the tower by means of anchors (4) of a support structure (2), incorporating into said structure at least one system of pulleys (9) linked to a car (10) that can be move horizontally through the support structure (2) through a lane .- Installation at the base of the tower, at less, a lifting device (13) with at least one cable (12). .-Installation of the cable / s (12) from the lifting device (13) to the pulley system (9), to lower the cable / s (12) to the position of a displacement element (13) that travels by the surface of the tower (1). 17.-Procedure according to claim 5 above, characterized in that it includes the phase of ascension of the displacement element (13) with the gondola (7) up to a certain height at which place the rotor (8), following the ascent to the top of the tower (1). 10. 18. Method according to claims 16 and 17, characterized in that it includes the phase of carrying out the horizontal movement of the gondola (7) and / or the rotor (8) by operating the carriage (10) that is moved by the lifting device (11) of loads and, 15 later, with the operation of the pulleys (9), fit the gondola on the upper end of the tower (1). 19.- Procedure for lifting the rotor and the gondola in the wind turbine tower, according to the 20 claims from 16 to 18, characterized in that once the gondola (7) is installed and the rotor (8) proceeds to remove the support structure (2) leaving embedded in the tower the elements that make up the anchor (4).